Co-delivery of plantamajoside and sorafenib by a multi-functional nanoparticle to combat the drug resistance of hepatocellular carcinoma through reprograming the tumor hypoxic microenvironment

Liang Liang,Zhijun Dai,Yujiao Deng,Lei Dong,Ying Zan

doi:10.1080/10717544.2019.1654040

Liang Liang, Zhijun Dai + Show 3 more

Open Access

https://doi.org/10.1080/10717544.2019.1654040

Copy DOI

Journal: Drug Delivery	Publication Date: Jan 1, 2019
Citations: 28	License type: open-access

Affiliation: Xi'an Jiaotong University

Abstract

Sorafenib (SOR) is a multi-kinase inhibitor that was approved as the first-line systematic treatment agent of hepatocellular carcinoma (HCC). However, the anti-cancerous effect of SOR is dramatically impaired by the drug resistance, insufficient accumulation at tumor tissues, and limited tumor inner penetration. To combat the above issues, the PLA-based nanoparticles were first fabricated and co-loaded with SOR and plantamajoside (PMS), natural herbal medicines that possess excellent anti-cancerous effect on many types of drug resistant cancers. Then, the polypeptide CT, which is tumor-homing and cell membrane penetrable, was further decorated on the dual-agents loaded nanoparticles (CTNP-PMS/SOR) to enhance tumor accumulation of drugs. Importantly, the CT peptide is a conjugate derived from the covalent conjugation of CVNHPAFAC peptide, a tumor-homing peptide, on the fourth lysine of TAT, namely cell membrane penetrating peptide, through a pH-sensitive hydrazone bond. By this way, the cell penetrating ability of TAT was dramatically sealed under the normal condition and immediately recovered once the nanoparticles reached tumor sites. Both in vivo and in vitro experiments demonstrated that the anti-cancerous effect of SOR on malignant HCC was significantly enhanced after co-loaded with PMS. Mechanisms studies revealed that the PMS is capable of reprograming the tumor hypoxic microenvironment, which represents the main cause of drug-resistance of tumor cells. Besides, functionalization of the NP-PMS/SOR with CT peptides signally improved the accumulation of drugs at tumor sites and penetration of agents into tumor cells, which in turn resulted in stronger capacity of tumor growth inhibition.

Highlights

Liver cancer has been the leading cause of cancer-related death, with an overall 5-year survival rate below 10% (Wang et al, 2016; Dong & Zhang, 2018)
Our results showed that the expression level of HIF1a increased in hypoxia microenvironment, which could be significantly decreased after PMS while not the SOR
We have developed a multi-functional nanoparticle, which is able of co-loading with SOR and PMS for combating the drug-resistance of hepatocellular carcinoma (HCC)

Summary

Introduction

Liver cancer has been the leading cause of cancer-related death, with an overall 5-year survival rate below 10% (Wang et al, 2016; Dong & Zhang, 2018). As the most dangerous and common liver cancer, hepatocellular carcinoma (HCC) is accounting for 90% of all primary hepatoma (Jeon et al, 2018). A wide array of novel small molecule drugs have been developed, tumor drug resistance significantly impaired the therapy effect (Aghazadeh & Yazdanparast, 2017). The hypoxic microenvironment in the solid tumor tissues and/or within the tumor cells represents one of the primary causes of drug resistance (Gombodorj et al, 2017). Such unique microenvironment at tumor site is mainly formed by the complex formation mechanisms of tumor tissues, such as overgrowth of the cancer cells, blood abnormalities, and overlong oxygen diffusion distance (Gombodorj et al, 2017; Qin et al, 2018). Previous studies have demonstrated that the hypoxia inducible factor (HIF) is the key gene regulatory factor that was involved in cell hypoxia response, and over expressions of HIF-1 and HIF-2 is closely related to chemoresistance of tumor cells (Harashima et al, 2017; Nouri et al, 2019)

Methods

Results

Discussion

Conclusion